Tractor borne planter attachment



Oct. 27, 1953 H. v. HANSEN ETAL 2,656,301

TRACTOR BORNE PLANTER ATTACHMENT Filed Aug. 5, 1947 7 Sheets-Sheet 1 HAROLD m HANSEN BYJOH/V 7; MURPHY ATTORNEYS Q 1953 H. v. HANSEN ET AL 2,65,801

TRACTOR BORNE PLANTER ATTACHMENT Filed Aug. 5, 194'? 7 Sheets-Sheet 2 1r .1 A U INVENTORS HAROLD M HANSEN JOHN r MURPHY A TTORNEYS H. V. HANSEN ET AL TRACTOR BORNE PLANTER ATTACHMENT Oct. 27, 1953 7 Sheets-Sheet 3 Filed Aug. 5, 1947 INVENTORS HAROLD V. HANSEN JOHN 7T MURPHY ATTORNEYS Oct. 27, 1953 H. V. HANSEN ET AL TRACTOR BORNE PLANTER ATTACHMENT Filed Aug. 5, 1947 7 Sheets-Sheet 4 mhhhhhhwlm l F y- 99 97 i W? A I) 4 INVENTORS w HAROLD V. HANSEN JOHN T. MUR PHY 96 r6- 4- Y ,0 Ho 1 o e@b A TTORNEYS V00 Oct. 27, 1953 H. v. HANSEN ET AL TRACTOR BORNE PLANTER ATTACHMENT Filed Aug. 5, 1947.

7 Sheets-Sheet 5 INVENTORS HAROLD v HANSEN JOhf/V 7-. MURPHY Oct. 27,1953 H. v. HANSEN ET AL TRACTOR BORNE PLANTER ATTACHMENT 7 Sheets$heet 6 filed Aug. 5, 1947 7 0 4 a M w a 3 0 0 a a T a o A. a {a 9 w fl ma & 6w H m 0 Mn 0 ll/ 4 9 a 3 o OM10 i 8 4 A Tu 4 3 7 [J 0 000 I W 5 a 5E 5 H 2 5 m 0 WV m H 4 n o o l H 4 x 'Inl 4 H 6 c H 8 H uh. 9 a W .7 6 U 0 0o rt F mm: & a W m w ATTORTVEY Oct. 27, 1953 H. v. HANSEN ET AL 2,555,801

TRACTOR BORNE PLANTER ATTACHMENT Filed Aug. 5, 1947 7 Sheets-Sheet '7 INVENTORS' HAROLD M HANSEN JOHN 7. MURPHY BY WWW/1 ATTORNEYS Patented Oct. 27, 195 3 UNITED STATES iPATFENT TRACTORTBOBNE PLANTER ATTACHMENT EHarold "V. :I-Iansen; winnebago zlllaj and John Murphy, :HaywoodiCounty, .1 e m 1,., assignors to tilarry Fer lson, Inc.

I ration of Delaware Detroit, Mich.,, -.a corpo- ApplicationAugust 5, 1947;semi-nw'lsaaao structure, so to'speak, to which may be applied.

a variety of interchangeable instrumentalities'to accommodate it for 'w-idelydivergent types of planting.

More particularly; as the design ofagricultural machinery has progressed-a larger and larger number of difierent forms ofplantershavebeen evolved. Variance in soil-conditions'land contour, and crop-requirements as todepth aswell as shape of the ridgecrfurroW-in which the seed is planted have all played apart in multiplying these forms ofplanters. Such multiplication of specialized implements has unfortunately, however, increased implement costs for the farmer.

One of theaims of the present invention .has been to overcome that'difficulty'by providing'a single basic structure which canywith a minimum of attachments, be converted to anyone of a wide variety ofspecializejd forms of planter. The farmer hasiin such case essentially but one planter to buy and maintain, while themanufacturer'can realize the benefitsof large scale production of but asingle standardized unit.

To such end it has .been. one o'f'the objectives of this inventionito embody"the main andsubframing of a planter employing any desired numher of seeders, a selected numberof the. seeders themselves, a commonJdrive.mechanismiforlsuch seeders, andpress wheels for the.same,.all inone basic structure. Such basic structure'is arranged for the ready application of any ,one or a. series of suitable openers and ,coverers, running the gamut fromheavy soil listerplanting to shallow flat land planting. 'Moreover,-the commondrive mechanism is so constructed that it may 'be driven either from ground wheel or tractor, as desired, or as dictated by particular fieldconditions. Complete -freedom of choice is thus afiorded of the number of seeders to'be used (within reasonable limits) ofthe type 'ordrive, and of the style of planting-and all with'what is essentially but one implement.

In a considerably difierent aspect, and in a broad sense quite aside 'iromthe *conversion aspects outlined. above, ithasalso been an objective to devise a planter capable of coaction with an automatic draft control bitch .on: a ctractor. That ,is to @say, we .have provided :a aplanter arranged tocactuate the automaticdepth control of.- as tractor, such astone eq-uipped with the' well known ihydraulic :power I lift disclosed in- Henry Qeor e Fersu onfi ten .511.11 .1180iissu dMay 24, 1938, in a manner to accomplish plan ill at run i rm. a curately tro l d depth. at qthe sameltime we h vetsucc e dlinno ercom ngtth difliculties of proper pressing ofsthe plantedrow despite the bodily raising and lowering of :;the implement entailed in such type of control.

Moreover, those objectives .last mentioned, have been attainedin a .convertibleaimplement ofpzthe style first outlined.

The invention also resides in various .novel combinations and subcombinations :or selements employed in various aspects .ofu'the implement,=,as for example, in the groundwheel drivesetupgthe alternatively ."available drive from. the {drive directly from ,the .tractor with automatic :disablement of .the;;same as ranincident to raising of the hitch linkage.intoutransportzposition,iand soon.

Further .objects. and. advantages of :the; invention will become apparentasithefollowing description proceeds taken in: connection .with :the accompanying drawings; in. which Figure 1 is a partial perspective=view, taken from the front end, of a :planterembodying :the broader aspects of the present invention, :the

basic structure being :shown' in full lines -and the openers and, coverers, which may take -a .variety of forms some of which are later illustrated herein, beingindicated merely generallyin broken lines.

Fig. 2 is a side elevation ofrtheplanter of Fig.

'1 equipped for heavy duty I lister planting -;and

shown as attached to the'poweroperated hitch linkage of a suitable tractor diagrammed in broken lines.

Fig. 3 is aplan view of the apparatus'of Fig: 22. Fig. 3A is an-enlargeddetail sectional-view taken through the adjustable diameter drive pulley substantially along the line "SA-3A in Fig.3.

Fig. '7 is a detail sectional view taken substantially along the line 'l'! in Fig. 5.

Fig. 8 is a detail sectional view taken substantially along the line 8-43 in Fig. 6. I

Fig. 9 is a side elevation of still another modified form of furrow opening mechanism that may be used in the planter unit, in this instance the apparatus being particularly adapted for use in so-called flat land planting.

Fig. 10 is a sectional view taken substantially along the line Ill-l 0 in Fig. 9.

Fig. 11 is a rear perspective view of the implement attached to the rear end of a tractor, a portion of the apparatus being broken awayto show more clearly the ground wheel drive, and the units being of the particular form shown in Fig. 5.

Fig. 12 is an enlarged detail perspective view of the ground wheel and its supporting frame included in the implements of Figs. 2 and 11.

Fig. 13 is an enlarged face view of one of the press wheels included in the implements of Figs. 2 and 11.

Fig. 14 is a sectional view through the press wheel, being taken substantially along the line l4l4 inFig. 13.

Fig. 15 is a general perspective View of another form of planter implement embodying the invention and which in this instance is equipped for drive from the rear axle of the tractor to which the implement is shown applied, rather than from a ground wheel as in Figs. 2 and 11.

Fig. 16 is an enlarged fragmentary plan View of a clutch mechanism included in the drive of the implement of Fig. 15.

Fig. 17 is a sectional view taken substantially along the line 11-11 in Fig. 16.

Fig. 18 is a sectional view taken substantially along the line |8l3 in Fig. 17.

Fig. 19 is a fragmentary plan view of the countershaft and associated mechanism included in the implement of Fig. 15.

Fig. 20 is a fragmentary end elevation of the clutch and associated mechanism included in the apparatus of Fig. 19.

Although certain particular embodiments of the invention have been shown and described here in some detail, there is no intention to thereby limit the invention to the specific details illustrated. On the contrary, the intention is to cover all alternatives and modifications falling within the spirit and scope of the invention as expressed in the appended claim.

Referring more particularly to the drawings, it will be observed that various alterations or modifications in the exemplary implement have been illustrated to accommodate different soil conditions, and to some degree operating preference. Thus, a variety of furrow opening devices have been illustrated accommodating the implement for heavy soil, loose soil, flat land, etc. Moreover, optionally available arrangements for driving the planter either by means of a ground wheel or by power derived more directly from the tractor have been shown. Throughout all of these variants, however, the same basic implement structure is employed. Accordingly, the basic structure common to all of the various modifications or illustrated embodiments will be described. Thereafter will be considered the various illustrated forms of openers, coverers and drives that may be utilized in conjunction with this basic structure.

Illustrated tractor The planter or implement herein disclosed is intended primarily for use on a tractor equipped with a power elevatable hitch having a stress responsive automatic control device. In brief, the present planter is such that it will serve to apply to that control device a stress proportional to the ground reaction on the implement, thereby effecting an automatic bodily raising or lowering of the implement to retain the ground reaction or draft load substantially constant with a resultant uniformity of planting depth. In the common parlance of people in this field, the in plement here contemplated operates on the system as distinguished from a so-called drawbar type of planter which is simply pulled along behind the tractor. (3n the other the present implement also is designed to accomplish a uniform coverage and pressing of the planted row despite the bodily raising and lowering of the implement necessarily entailed in such an automatic control of the same as that outlined above.

A suitably equipped tractor for manipulating the disclosed implement is indicated generally as T in Figs. 2 and 3. Such tractor will readily be recognized by those skilled in the art as equipped with the well known Ferguson power operated, automatic draft linkage. For further detail of such linkage and its hydraulic operating unit reference may be made to Henry George Ferguson Patent No. 2,118,180 cited earlier herein. For the present suffice it to note that the hitch includes a laterally spaced pair of lower or tension links 25 and an upper or compression link 26. The lower links 25 are pivoted by ball and socket joints at 21 on the rear end portion of the tractor for vertical swing and lateral movement as well. Such pivot points are located below and slightly forward of the center line of the axle for the tractors rear traction wheels. These lower draft links 25 are suspended by pivoted drop links. 28 from a pair of vertically swinging crank arms 29 rigid with a transverse shaft 34 The latter shaft is rocked by a suitable hydraulic power unit (not shown) for raising and lowering the links 25.

The upper draft link 25, normally operated in compression, is pivotally connected at its forward end to a shackle 3| of bell crank shape pivoted at 32 on the upper rear side of the tractors differential housing to rock fore and aft. Forward rocking of this shackle is resisted by a compression spring 33 (Fig. 11). Pressure applied through the top link 25, and overcoming the resistance of the spring 33, automatically operates a control valve (not shown) for the hydraulic unit mentioned above to cause a raising of the lower draft links 25. Similarly, diminution in top link compression below a predetermined value effects a corresponding lowering of the lower draft links 25. As is well understood, bodily raising and lowering of an implement attached to the draft links in such system is thus accomplished automatically in accordance with changes in compression on the top link 2t (see Patent No. 2,118,180 mentioned above). The usual manual control lever (not shown) for the Ferguson hydraulic setup is also provided and is operable at will in the usual manner for such system to cause the hydraulic unit to pull the draft linkage up to full elevation for transport of the implement free of the ground.

Basic structure of implement Turning now to the basic structure of the implement applied to such hitch linkage, it will be observed upon reference to Fig. 1 that the planter there shown has a main frame of inverted T-shape. Such main frame is constituted by a men sci *transversevtool bar 3'4 of adiamondishapedscrcss section with which is rigid axgenerallylupright standard comprised of a: painoflaterelllyrspaced bars 35,..35. A removable ipivot :pinn36 ;(Figs.i.2 and 3) detachably connects the'upper 'end of this standard to the .trailing: end .of rtheztopilink 26, 1 such pin being received inthe usual socketed ball in the end of such. link which is.locatedzbetween .the converging upper ends of athe barsi35,

Likewise detachable xconnectionmfithe .tool bar 34 to .the trailing: ends 'of'ithe lower: draft links :is-accomplishedbyremovable pins 531 :(Eigsm :and' 3). visuchipins are:inserted'inzssocketedabans -in' the r.trailing "ends rof these .links rand through holes in the forward endsof short; iorwardlyprojecting :brackets 38 rigid with'i'theitooh bar. *IIhe standard35, 35 isrcanted slightly forwardcso that the three points of pivotal connection rat. the :main: implement frame to the hitch links are arranged substantiallydn-a :common vertical plane (Fig.2). To attach or detachthe-implementxit is necessary merelytoinsert or removeizthethree l pivot'pins. at the trailing ends of .the respective hitch links.

.IAS will appear later in greaterndetail, "115118 .ground engaging portions of the implementpand particularly the furrow opening. and: :coverers are .disposed below the linessof thezlowerdraft links and. in a manner isuchzthat groundxreaction nn such instrumentalitiesiwill tend to rocklthe itool "bari34 :forwar'dly: about .the pivots 31, in effect ::.tending to rotate the toolbar-forwardly about its longitudinal axis. 'As;.a' 1resultthe. upright stand- ;:ard 35, :35:tends to rock'forward, thereby serving as: a 'means of applyingxcompressive load :to 1 the :stress responsive controladevice ('33) on'rthetrac- :tortthrough the top link -26 intaccordance with groundrreactiononthe implement.

"To the transverseitool :bar may be attached any desired number of planter .units P. Two suchunits are arranged side by side in-Fig. 1 simply by way ofsillustration. These units are J identical and accordingly: a description "of .one will suflice for both. Each suchunit includes a heavy gooseneck or. frame member 39 rigidly, .although detachably, clamped tothe'tool-bar 34. This gooseneck extends rearwardly and downwardly fromthe tool bar'and to its. lower end-is attached a suitable furrow opener, various exemplary forms of which are later described therein.

Bolted to the intermediate or shank portionof uthe gooseneck 39'is. a pair of rearwardly exten'ding plates 40, 40 (Fig. .4). The portions of these '10 in theirrrespectivesclamps. illihese.=standardscf41 reach carries: a tcoverer" device (Fig. ..l ,"1 various :suitable :formsziof :whichiareiillustratedmndelater aiesciibed herein.

Provisioniisrmade tomcouplingi'the stubshafts 1 5 43 of the several seed dispensers 4i thatrmaydce used, :in; order :.to.- actuate zthem 111111115011 from a :single :power source. For .that :purpose ithesstub shafts. 43 are:disposedsinsaxial:alinement'KE'igs. .11 and 3 licing-coupled byltubularshafts Match- :20 :scoped over: their .:ends ::and overrthe ends: of. a

plates trailing behind the goosene'ck-sare disposed in parallel spaced relation toform supporting wings constituting asupportingframe forasuitable seed dispenser 4| surmounted by'a seed hopper 42 (Figs. 1 and 2). A seed dispenser ofthe form disclosed in Harold V. Hansen application Serial No. 643,628 filed January 26, .1946, is preferred. Any one of a large variety of well known seed dispensers will serve the purpose, however, insofar as the present invention is concerned. Since a variety of seed dispenser mechanisms suitable for the present purpose are well known in the art, further detailing here is unnecessary. It is sufiicient to observe that the mechanism may include the usual rotary seed plate (notshown) driven from a laterally projecting stub shaft43 -42 to a seedtube 44 (Fig. 5) in.'timed relation with the rotation of the plate.

Also rigid with the gooseneck .39 is a pair of rearwardly extending, laterally spaced bars 45 centrally .:'located z shatt .of square cross. sec- --tion ("see Figs. .-3..and..3A). .On thisv shaft .150.-is alocated .an adjustable :id-iameter drive lpulley, .zdesignated generallyas 5|,and .0VeI fWhiOh.-iS 5 strained. an endless V=+beltE52 The pulley :5lx'may bez-adjustedjnrfixed increments. to. accommodate precisexselection aofttheieed speeds desiredior .Lthe seedtdispensers.

fissindicatediml igl BAgthe: pulleysi I :ccmprises 0 ea lcoacting pair arof -;frusto econicalxsections 4133, 154 1. between which the avebelt 'EZi-iSJI'GOBiVl-Id. The thub cof .the section'r53 is pinneduto the shaftlfi land-by :shifting the .10ther .5 section .54 "toward: and from such fixed. section 53 ithe effective diameter-"of 5 i-the :pulley.:.is correspondingly: adjusted. -'Such :.:shift of. thexsection. 5.4 .is-.accomplished: by thread- ..ing its.hub'portionuflawithin asnut 55tand=which .i'inrturnthas awn-cup tsh-apedifiangeafia which is connected by .-a spring urged .detent -56 with a 0 :member :51 .pinnedator the shaft: 50. -:By releasing therdetent 56. and turning the; nutr155, r the pulley w section vflxisishifted axially :and is locked in a selected :position :of .iadjustment .iby dropping the rcletentintonne of.arcircularlydisposed series of holes-5B inthe flange 55a. IThei shaft :50: iszsupportedfrom the tool bar 34 isbyapairzof bracketzarms 59 :(Eigs. :11 and 3)1-converging forwardly and rigidlycclamped'rtothe-tool abaratitheinforwardends. lThei'hubfof the pulley section :53 is ijzonrnale'd; in -a. suitable bearing i 60 :on-themearzendnf zoneiof thesbracket arms, while uazbushing :6 l fixed :tmtheishaft 50 is j ournalect in raihearing 6-2 at the 1 trailing Lend 'of ithecother :.bracket arm (Figs-3n) All :;Of the structure of. 1 the aplanter units 3P lso'k-far described isimovableebodilygas. a unitary structure, withztheitransverse toolibar i34. "Thus bodily raising .=and flowering; of .ithis .entire sstrucincluding the; main; supporting .iframework, :furrow opening and covering zdevices,:seed;disipensers :and theirbasicl drive mechanism.:.i .-;ac-

complished by the automatically .controlledhitch linkage. Each of the planter units P is, however, equipped with a press wheel arrangement which .:is 'relativelyvmovable.rwith reference to :the unitary;.structureinote'd, in :a :vertical direc- 131011, 550 "that ;the: press "wheel may roll properly -a10ng1the stop ofItheclosed furrow or p'lanted ridge, pressing firmly down-upon-it-at-aIl-timeS 270 without rregard :to the i'bodfly liftin and lower (Fig. 3) and delivering the seeds from the hopper -ing: of 1 the remainder 'of the implement" incident to tthe :automatic 1 draft' control.

In the illustrated arrangement a'pres "wheel, idesignated "generally "as A 63, is provided "for each .76 planter unit'P tFigs l to 5). Such'press'vvheels are'j'ournaled in the rear portions of a frame constituted by laterally spaced bars 64 (Fig. 4). The forward ends of such'bars are pivoted to swing vertically on a transverse pin 65 extending between the wings 49. The intermediate portions of the side bars of the press wheel frame are joined by a transverse strut 66. A helical compression spring 6? (Fig. 5) yieldably urges the press frame downward. Such spring is slidably guided on a pin 68 rigidly supported on the rear portion of the coverer frame 45, 45 and rising through an aperture in the strut E6, the spring being interposed between the strut and a suitable washer 69: fixed to the upper end of the pin.

The particular press wheel 63 illustrated herein (see Figs. 13 and i l for detail) is of a plural section type of adjustable tread width to accommodate different widths of planted ridge. Thus it is shown as comprising two pressed, sheet metal sections 10, it having outwardly extending frusto-conical peripheral flanges for properly shaping the soil into a ridge as it is pressed down by the wheel. These disk sections are slidably received on a central hub or sleeve ll journaled at it opposite ends by suitable antifriction bearings I2 on pins 13 carried by the side bars 64 of the press wheel frame. An integral circular web 74 on the hub 'H has three equidistantly spaced, laterally projecting bosses E5 on each of its side faces. Each of the wheel sections l5 may be secured to its corresponding set of bosses T5 in any one of three different positions of angular adjustment about its axis, there being a corresponding different axial displacement of the disk in each case. Thus each disk has in it one set of three holes l6 fashioned in the flat web portion of the disk, a second'set I1 fashioned in embossments l8 and a third set 19 fashioned in still deeper embossments Bil. The selected one of the three sets of holes T6, 11, 79 is registered with the tapped holes in the bosses l5 and screws 8! threaded in to hold the disk in place. A large variety of tread widths is thus afforded.

Suitable scraper blades 82 (Fig. 11) are adjustably fixed-to a U-shaped supporting bracket 83 arched across the press wheel and secured to the frame 6d, 64.

A basic implement structure is thus afforded which is adapted for coaction with an automatic control on the tractor as described and which can moreover be utilized in setting up a planter for any one of a great number of specialized planting operations. For the latter purpose selection is made of an appropriate opener, coverer, if any, for coaction therewith and a drive suitable for rotating the pulley 5|. Irrespective of the selection made in those three elements, however, the basic implement structure requires no alteration. The exemplary form of openers, coverers and drive connections herein shown are next described.

Opener devices The basic implement structure described above may, as illustrated, be equipped with any one of a variety of furrow opener devices, the choice depending largely upon the particular soil conditions encountered.

For deep planting in heavy soil the opener arrangement of Figs. 2 to 4 is suitable. As there shown each planter unit P includes a lister bottom 84 which, instead of the usual side wings, has a pair of coacting disks 85. These disks face outward and are angled to throw the soil outward after it is dislodged by the lister bottom 84 which leads them.

Each lister bottom 84 is bolted to the lower end portion of the gooseneck 39 of its planter unit. The coacting wing disks 85 are journaled in bracket arms 66 (Fig. 4 rigid with the lister bottom and extending rearwardly from it in diverging relation to each other.

The furrow opening arrangement of Figs. 2 to 4 also includes a subsoiler point 81 arranged immediately ahead of the lower or discharge end of the seed tube 44. The shank of this subsoiler Bl is bolted between the pair of supporting plates 88 (Fig. 4) extending rearwardly from the lower portion of the gooseneck 39 and rigid with the latter. Suitable straps (not shown) may be provided to secure the lower portion of the seed tube to the subsoiler.

In Figs. 5 and 7 is shown one of the planter units equipped with a somewhat different style of furrow opening arrangement also suited for heavy soil conditions. In this instance a lister bottom 89 with full stationary side Wings is fixed to the lower end of the gooseneck 39 as contrasted with the disk winged lister of Figs. 2 to 4. Moreover, instead of using a subsoiler point a runner type of opener 99 is utilized.

The runner type opener 90 is of generally familiar form, comprising rearwardly diverging widewings (Fig. 7) between the trailing portions of which the lower end of the seed tube 44 is fixed (Fig. 5) for dropping the seed into the furrow opened by the runner. Such runner is detachably bolted to a foot 9| on the lower end of a supporting bar 92 fixed between the plates 88.

In Figs. 6 and 8 one of the implement units is shown equipped for loose soil lister planting. In such case the furrow is opened by a runner 93 coacting with a pair of opener disk 94. The runner 83 is comprised of a pair of rearwardly diverging wings (Fig. 8) joined in their forward portions to present a steeply upswept curving edge (Fig. 6) which slices into the soil. The lower end of the seed tube is fixed between the trailing ends of such wings. The runner 93 is fixed to the lower portion of the gooseneck 39 as are brackets carrying the opener disks 94 in outwardly facing, suitably angled position at each side of the runner.

For flat land planting still another opener arrangement such as that of Figs. 9 and 10 may be employed. In such planting the seeds are barely covered by the soil, being planted on level ground as distinguished from planting in a furrow or on a ridge. In this case the opener device includes a runner 95 generally similar to the runners as and 93 previously described and fixed to the foot 9|. on the lower end of the arm 92 heretofore noted. A forwardly projecting pair of bracket plates 9! bolted to the lower end of the gooseneck 39 carry a skid or sled 98. This skid comprises a generally rectangular flat plate, upturned at its forward portion sled-fashion and having a suitably apertured lug 99 on it for adjustable attachment to the bracket plates 91. Projecting from the rear portions of the skid 98 are wing scrapers in the form of angle irons lilil, projecting outward and rearward from the skid (Fig. 10)

Coverers Various forms of coverers may be used in the illustrated implement. Simply by way of example several forms have been shown. The choice is goverened by the soil conditions, the

form of seed bedzdesired: and to. some degree by the character of the coacting opener device.

In'Figs". 2"to 4*thecoverer comprisesa pair of inwardly facing-disks" IOI, angled inwardly toward each other at their rear edges so as to throw'the soilinward over "the-seed. These disks are journaled on the lower ends of the upright standards 6''!" adjustably" secured to the cross bar 46 as previously described.

An identical pair-of coverer disks is'em ployed inthe setup of Figs: 5 and'l.

In thearrangem'entof-Figs. 6 and 8 the coverer comprises a pair of similar shaped scraper blades ")2 arranged toscrape the soil inward overthe seed. These blades have-shanks received by the clamps i 3 on the cross bar e61 In-th'e setupof Figs. Qand 1D for flat land planting it isordiharily notnecessaryto-use any coverer'deviceat all, the seed planting being very shallow andthe-disturbedsoil rolling in on the seedsufiiciently to accomplish any covering that maybe required.

Ground wheel drive In the 'setups of Figs. Z'to ll inclusiveitheiseed 1 dispensers-4| are driven-from a groundwheel; Forthat purpose a'pneumaticttired ground wheel |03 '(Figs; 11 and 12) is preferably used, the same being: journaled' in the lower end: of a. U- shaped subframe- I04: (Fig. 12). This subframe is J slidablyreceived between the lower. ends of a pairuofrbars'llli constitutingthe main ground wheel frame. Atransverse strut it joins these side ba'rsxandi hasthreaded init an adjusting screw" I0 byimeans ofrwhich-the subframe. i134 and wheel I03 may be: shifted longitudinally of the mainngr'ound wheel frame: Slots H18, in the sidesbars. of the main. ground: wheel frame receiveithe ends ofrthesh'aft for the :ground awheel, thusipermitting such adjustment;

The upper ends ofitheside bars; I05 of the groundwheel frame are apertur'edj atzlll9: (Fig. 129T, for receptionxof. the hubs: on the variabl'e diameter pulley assembly previously identified (Figs: 3Aand :11); Thedrive belt 52. leading to this: adjustable diameter: pulley is. trained over a' driveipulley I I9 fixed .to'the shaft oftthe ground wheel |ll'3:anddriven"by thelatter (Figs. 11 and 1 2):

Thessideibars- I95; I05 of theground wheel frame are. positioned to angle downwardly and forwardly from the seeder: drive" shaft, either gravity'or" an appropriate loading means being utilized'to'urge the ground Wheel yieldably downward duringcoperation; If desired, such loading means 'maytalre theform of suitable; springs and rods. and'such'rods may pass through apertures 31in: the side barsof'the ground wheel frame (Fig. 12).

By. thus locating the ground Wheel forwardly of the. implement; and spring urging it downward, it is, in effect, pushed into the ground as the-implement advances. In that way firm contact of the groundwh'eel' I 273 with the soil is assured at all times t'hroughout theoperation of the implement; In consequence irregularities in seedspacing due to skipping or skidding'of the ground" wheel is minimized. Since the ground wheel'revolves at a speed directly proportional to the speed of tractor travel the spacing, between seeds" is maintained substantially constant;

Tensioningofthe'drive belt 52'is adjustedby turningthe hand screw I01 (Figt,12) to. shift the groundwheel l03and its attached pulley I I0 bodily' toward or away from the coacting ad- 10 justableidiameterpulley, 5i... Nochange in belt tension. results withrise andlfall iofthe imple'- ment. sinceztheground wheelTfr'ame. is. pivoted about theaxisof the. shaft. 5 0.

When the. hitch link s ZE-are raised to hoist theii'nplementr-into transport position" the ground wheel, frame tends to. swing. downwardl Such swing is, however, li'mited'ibyappropriate stops so tliatithegroundwheel is raised free of the ground, along with the rest of". the implement, for transport.

Drive from tractor Anarrangement isillustrated in Figs; 15 to 20 bypmeansr. ofiwhichithe implement can; if desired;: be driven by power deriveddirectly from thetractor-rathervthanby way of a ground wheel asipreviously described: For such purpose-a suitiable-drive sprocketFl M: (Fig: 15) maybe applied tothe'rear-axle ofzthe tractor, an endless'roller chain H5". beingstrained over this sprocket as well as over ear-driven sprocket llli ona counter: shaft M511. In. such setup the belt. 52. trained overithe. variable: diameter? pulley 5l is driven from a-pulley ilfl'lonz the countershaftrather than from a ground wheel pulley as in themeviously described arrangement.

In the installation-:shownain Figs; 15 to. 20pmvision. is, moreover; madefor disabling the drive t'o thel' planter wheneverthe: tractor is backed, for also r disabling the 1 drive: automaticallywhen-.- ever the? implement is hoisted iinto transport position; and for driving from. thewcountershaft H1. asuitablerfertilizer dispenser (not shown). if oneis desired. For the-latter purpose an additional belt: pulley- I I8 is: applied. to thewcoum tershaft; Upon referencertorFigr 19 itlwill be seen that the'zcountersliafti. l-il 1 is: square-int cross section. and; thatz-eachr-of" the belt pulleys" I I8, H 9;: includes a respective outer frusto-conica'l section 8A; H 9A1 fixed to such shaft asswell-as a; corresponding: axiallyslidable section I I I 8B -and I'IQB: Compression. springs I20iinterposed between collars I21: fixed to. the .countershaftr and respective OIIBSr of" the?- s1idablepulley; sections l I813!" H 913: urge: thelatter yieldably toward .the coactingiafixed pulley sections.

Astoi the mountingxof thecountershaft I 11, it will beiobserved upon referencetoFig-s; 15 and 19 that a pair of upwardly andforwardly extending brackets I22; [-23 are:prov-ided for. the purpose: The left end? of. the countershaftiis journaled bymeansfofi a bushingz I24 in the upper end. of the bracket I22and inwhich is rotatably received: the hub portion of. the pulley section 8A; The lower end" of this-bracket=is bolted to one of the uprightmain frame bars 35. The otherbracket I23 (Fig, 19')- is bolted to an ad jacent one of the" forwardly projecting bracket arms 38011 the 'tool'baril such bracket l23being shaped to provide aslateraloffset and'having fixed to its'upper end a sleeve I25? Thehub portion of theadjacent' pulley section 119A e3!- tends into this sleeve and'ls "rotatably journaled in it.

Atthe outer end of the sleeve 1 251s "located a one way clutch mechanism designated generally as-IZB, which serves to-connect'thesprocket H6 to the countershaft Ill. 39" disengaging this clutch, througli'use of ame'chaniSmaUout tobe described, the drive may be automatically disengaged whenever" the planter'ds raised into transport" position and 'bymaklng "it a oneway clutch; reverse driving or the planter "mechanism ispreventewwheiiithe" tractoris'backedi m the draft links.

. 11 present instance the clutch mechanism I126 comprises a cup shaped casting I21 (Fig. 18) rigid with an elongated hub or sleeve I28 having a square aperture to receive the correspondingly shaped countershaft H1 and journaled at its inner end within the supporting sleeve I25. The sprocket H6 is journaled onthe outer portion of the hub I28 and has integral with one side face an annulus I29 registering with the open end of the cup I21. The interior of the annulus I29 is shaped as indicated in Fig. 17 to provide a circumferentially spaced series of shoulders or teeth I30 of a one way clutch. A coacting clutch pawl I3! is pivoted intermediate its ends on a pin I32 carried by the cup I21. A pin I3IA on the outer'end of the'pawl is engageable with the teeth I30, a contractile spring I32A serving to urge the pawl yieldably into engaged position.

A disengaging dog I33 on the clutch pawl I3I (Figs. 16 and 17) projects through a slot I34 in the housing cup I21 adjacent a similarly shaped shield or lug I35 rigid with the housing. By swinging the dog I33 to the left (as viewed in Fig. '17) the pawl is swung into disengaged position.

To swing the disengaging dog I 33 whenever the implement is hoisted into transport position, the relative movement between the hitch links and implement frame incident to such raising is utilized. For that purpose a rockshaft I36 (Fig. 19) is journaled in the bracket I23 and in a supplemental bracket or lug I 23A on the latter. The right hand endof the rockshaft is offset forwardly in a crank shape, being located to swing into and out of position to intercept the dog I33 as the rockshaft is rocked. To the other or left Rsum of operation The operation of the disclosed planter mechanisms will, in general, be clear from the foregoing. By way of brief recapitulation attention may first be given to the implement of Figs. 2 and 3. In transporting the implement to point of use the operator raises the draft links 25 by means of the hydraulic power unit (not shown) on the tractor to their fully elevated or transport position. The implement is thus lifted bodily and in its entirety free of the ground so that it can be readily transported. The top link 26 coacts with the upright or standard 35, to retain the implement stabilized in a generally upright position. There is some droop of both the press wheel 63 and ground wheel I03. Both are. however, retained free of the ground. Thus the cross bar 36 acts as a stop for the press wheel framing bars 64 to limit downward movement of the same and similarly downward swing of the ground wheel frame bars I35 is limited by engagement of appropriate stops as heretofore described.

On reaching the point of use the operator has only to swing the control lever of the hydraulic unit to permit the draft links 25 and attached implement to descend by gravity. As soon as the implement is grounded the lister bottom 84 or other opening device enters the soil imposing a tension load on the lower draft links 25 and a compression load on the upper draft link 26. As

7 heretofore. indicated, variations in the compresend of the rockshaft I36 is fixed a forwardly pro- 7 As the draft link 25 shifts from the full'line to the dotted line position of Fig. 20, in raising the implement for transport, the shaft I36 thus rocks forward so that its end portion intercepts the clutch disengaging dog I33. The shield or lug I35 comes to rest'in lodgment against the end portion of the rockshaft and with the dog.

I 33 pressed into disengaged position. The clutch isthus automatically disengaged and further rotation of the countershaft II1 positively arrested. Upon lowering of the implement into working position the underriding link 25 forces the lever I31 upward to the full line position of Fig. 20, thereby rocking the end' of the rockshaft I36 free of the dog I33 so that spring I32 is free to re-engage the clutch pawl.

While the implement is in lowered working position there is some small rise and fall of the The resultant swing of the rockshaft I36 is, however, small enough that the dog I33 remains'untouched and the clutch engaged. To retain the chain I I5 taut despite such movement a spring urged idler I39 (Fig. 15) is employed. This idler is mounted on an arm I40 (Fig. 20) pivoted on the bracket I23, a tension spring MI serving toswing it upward for engagement of the idler with the chain. The chain is thus retained taut even though the driven sprocket H6 is carried-by a support where center of swing is displaced somewhat from the center of the drive sprocket H4.

'draulic unit on the tractor.

sion load on the top link 25 are utilized to maintain the furrow opening device at a depth for constant draft determined by the control point setting of the manual control lever for the hy- The ground wheel I03 drives the seed dispensers 41 through the connections heretofore described for feeding the seeds at selected intervals behind the opening device and thereafter they are covered by soilthrown in by the coverer device. The press wheel 63 runs along pressing the earth in over the seeds. The pressure exerted by the press Wheel may be altered by changing the compression of the associated compression. spring 81. Moreover, the press wheel is free to rise and fall relative to the implement as variations in contour may require and without regard to the automatic variations in implement position incident to maintenance of uniform draft load.

Operation of the implement shown'in Fig. 15

is substantially the same as that just described except that drive for the seed dispensers 4| is derived from the tractor rear axle rather than from a ground wheel. In both instances the drive is automatically disabled when the implement is hoisted into transport position, in the one instance by lifting the ground wheel from contact with the ground and in the other by disengagement of the clutch I23.

Attachmentror detachment of the implement is a very simple matter, it being but the work of a moment either to insert the pins3fi, 31 or remove the same. Preparatory to any planting operation proper opener and coverer instrumentalities are applied to the basic implement structure and similarly a desired type of drive setup is selected.

We claim as our invention a planter mechanism as set forth below, any reference in the following claims to tractors and tractor parts, such as hitch linkages, being made simply in order to indicate clearly and with particularity the elements to which the planter is adapted to be attached and its mode of operation when so conditioned for its normal intended use.

We claim as our invention:

A planter attachment having a unitary structure susceptible of being mounted upon a tractor and bodily raised and lowered relative to the ground, said attachment comprising, in combination, a horizontally disposed transverse tool bar having means for connecting the same to a tractor, a pair of transversely spaced trailingly disposed bracket arms having their forward ends rigidly fixed to said tool bar, a dispenser drive shaft disposed transversely of said bracket arms and journaled thereon adjacent the trailing ends thereof, a driven element fixed to said dispenser drive shaft, a pair of planter units mounted on said tool bar in spaced transversely alined relation with said dispenser drive shaft, said shaft being disposed between said units, each said planter unit comprising a gooseneck rigidly clamped to said tool bar and extending rearwardly and downwardly therefrom, a lister bottom fixed to the lower end of said gooseneck, a pair of frame plates secured against the sides of said gooseneck and extending rearwardly therefrom to form a boxlike bracket, a seed dispenser straddling said boxlike bracket and firmly fixed thereon, said seed dispenser having a drive means alined with and connected to said dispenser drive shaft, supporting means fixed to the lower end portion of said gooseneck and extending rearwardly therefrom, a furrow opener fixed to said supporting means in trailing relation to said lister bottom, a seed tube extending downwardly from said seed dispenser between said frame plates and terminating at the trailing end of said furrow opener, a cross bar rigidly fixed to 14 said frame plates and spaced rearwardly therefrom, a pair of furrow closers mounted in depending relation from said cross bar, a press wheel frame having a leading end disposed between said frame plates and pivoted thereto and a trailing end mounting a press wheel, said press wheel frame being disposed above said cross bar, resilient means interconnecting said cross bar and said press Wheel frame for application to said press wheel frame of a yieldable downward force toward said cross bar, and means for driving said driven element.

HAROLD V. HANSEN. JOHN T. MURPHY.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,259,826 Bloom Mar. 19, 1918 1,328,375 Grifiice Jan. 20, 1920 1,348,130 Hevel et al. July 27, 1920 1,618,329 Fuquay Feb. 22, 1927 2,031,650 Hendricks et al. Feb. 25, 1936 2,063,852 Ray Dec. 8, 1936 2,118,181 Ferguson May 24, 1938 2,253,706 Hippie Aug. 26, 1941 2,263,652 Silver Nov. 25, 1941 2,318,224 Hyland May 4, 1943 2,318,392 Hipple May 4, 1943 2,328,174 Silver Aug. 31, 1943 2,339,689 Englund Jan. 18, 1944 2,347,091 Elliott Apr. .18, 1944 2,356,231 Ferguson Aug. 22, 1944 ,363,749 Rude Nov. 28, 1944 2,416,189 McIntyre Feb. 118, 1947 2,561,614 Dixon July 24, 1951 

